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The mode of action of certain toxins that accumulate in seafood

Date:

March 17, 2010

Source:

CNRS (Délégation Paris Michel-Ange)

Summary:

Toxins released by certain microalgae can contaminate fish and shellfish which then become toxic to humans. Researchers have, for the first time, identified the mechanisms of action of two of these toxins. They have shown how and why they cause neurological symptoms. These findings could provide a basis for the development of new tests to screen for these toxins.

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The spirolide-AChBP complex AChBP, the protein used as a model for nRACh by the researchers, is made up of five identical sub-units (shown here in different colors). They are assembled in a ring, seen from above (left) and from the side when looking at the blue and yellow sub-units (middle image). The neurotransmitter inserts itself at the interfaces between the sub-units. It is also here that each phycotoxin (one of which is shown enlarged on the right) binds in order to inhibit the channel receptor function of nRACh.

Credit: Copyright Yves Bourne and Pascale Marchot / CNRS 2010

Toxins released by certain microalgae can contaminate fish and shellfish which then become toxic to humans. Researchers from CNRS (1) and CEA (2) have, for the first time, identified the mechanisms of action of two of these toxins. They have shown how and why they cause neurological symptoms. These findings could provide a basis for the development of new tests to screen for these toxins.

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This work was published online this week on the website of the journal PNAS.

Marine biotoxins are produced naturally by several species of single-cell algae. They can accumulate in the flesh of fish and shellfish and are then referred to as phycotoxins. In humans, the consumption of shellfish contaminated by these substances can cause diarrheal, paralytic, neurological and other symptoms. Phycotoxins can spread rapidly throughout the world, notably via the emptying of ballast tanks by merchant ships. As early as 1991, shellfish contamination was observed in Canada, then along the coasts of Norway, Spain and Tunisia. In 2005, contaminated oysters were detected in the Arcachon Basin on the west coast of France, which led the health authorities to impose a temporary ban on their sale.

A Franco-American collaborative project involving two joint CNRS/University laboratories in Marseilles, a CNRS intra-mural laboratory, a CEA laboratory in Gif-sur-Yvette and an American laboratory at the University of California has studied the functioning of two types of phycotoxins, a spirolide and a gymnodimine. These are "rapid-acting" neurotoxins; their injection in laboratory mice causes severe neurological symptoms that have a fatal outcome within a few minutes. The researchers were able to characterize the target of these toxins: they attack a receptor that is essential in living beings, the nicotinic acetylcholine receptor (3) (nRACh), a channel receptor situated on the membrane of muscle or nerve cells that allows the passage of small ionized molecules into and out of the cell. nRACh plays a crucial role in neuromuscular and neuronal transmission. More precisely, these toxins act by rapidly and almost irreversibly blocking the channel receptor function of nRAChs. This inhibition then causes muscle and/or cerebral dysfunctions, reminiscent of those observed during certain muscle diseases or cognitive disorders.

The scientists then characterized how the two phycotoxins bound to the receptor. Resolved using X-ray crystallography, the 3D structures of the complexes that formed between the phycotoxins and the receptor revealed that each toxin inserts itself at the heart of the binding site for acetylcholine, the natural neurotransmitter (4) of this receptor. This is a key position in that it can block the channel receptor function of nRAChs. Of particular interest (5) was the discovery that the binding mode of these toxins might provide new opportunities regarding the development of novel therapeutic agents active on nRAChs.

These results obtained in vitro thus explain the neurotoxicity of these phycotoxins in numerous animal species. A clearer understanding of their mode of action constitutes the first step towards the development of antidotes that might become a sanitary and economic necessity. Thus these findings raise hopes for the design of new, reliable, sensitive, practical and inexpensive tests that could detect the presence of phycotoxins in shellfish offered to consumers.

(3) Acetylcholine was the first neurotransmitter to be discovered. This molecule plays an important role in both the central nervous system (where it is implicated in memory and learning) and the peripheral nervous system (where it controls muscle functioning).

(4) The chemical compounds released by neurons that act on other neurons or on muscles (e.g. acetylcholine).

(5) The binding mode of these toxins is interesting as it differs from that of other nRACh effectors.

CNRS (Délégation Paris Michel-Ange). (2010, March 17). The mode of action of certain toxins that accumulate in seafood. ScienceDaily. Retrieved March 3, 2015 from www.sciencedaily.com/releases/2010/03/100311092118.htm

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